Single cell multiomic analysis of T-cell exhaustion
Presented By: Pratip K. Chattopadhyay, PhD
Speaker Biography: Pratip Chattopadhyay, PhD is an Associate Professor (Pathology) and founding Director of NYU Langone Health's Precision Immunology Laboratory (PIL). His laboratory performs independent research in tumor immunology and provides cutting-edge immune monitoring services for a wide variety of biomedical disciplines (cancer, infectious disease, rheumatology).
Webinar: Single cell multiomic analysis of T-cell exhaustion
Webinar Abstract: A key step in the clinical production of CAR T cells is the expansion of engineered T cells. To generate enough cells for viable adoptive cell therapy, cells must be robustly stimulated, which raises the risk of inducing T-cell exhaustion and reducing therapeutic efficacy. We sought to answer fundamental questions about the impact of in vitro manipulation on T-cell identity to by performing single-cell multiomic analysis using BD® AbSeq and BD Rhapsody™ Single-Cell Analysis system to simultaneously measure expression of 38 proteins and 399 genes in human T cells expanded in vitro.
Earn PACE Credits:
1. Make sure you're a registered member of LabRoots (www.labroots.com)
2. Watch the webinar on YouTube or on the LabRoots Website (https://www.labroots.com/virtual-event/immuno-oncology-2020/agenda)
3. Click Here to get your PACE credits (Expiration date 06/03/2022): https://www.labroots.com/credit/race-credits/4170/third-party
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Видео Single cell multiomic analysis of T-cell exhaustion канала Labroots
Speaker Biography: Pratip Chattopadhyay, PhD is an Associate Professor (Pathology) and founding Director of NYU Langone Health's Precision Immunology Laboratory (PIL). His laboratory performs independent research in tumor immunology and provides cutting-edge immune monitoring services for a wide variety of biomedical disciplines (cancer, infectious disease, rheumatology).
Webinar: Single cell multiomic analysis of T-cell exhaustion
Webinar Abstract: A key step in the clinical production of CAR T cells is the expansion of engineered T cells. To generate enough cells for viable adoptive cell therapy, cells must be robustly stimulated, which raises the risk of inducing T-cell exhaustion and reducing therapeutic efficacy. We sought to answer fundamental questions about the impact of in vitro manipulation on T-cell identity to by performing single-cell multiomic analysis using BD® AbSeq and BD Rhapsody™ Single-Cell Analysis system to simultaneously measure expression of 38 proteins and 399 genes in human T cells expanded in vitro.
Earn PACE Credits:
1. Make sure you're a registered member of LabRoots (www.labroots.com)
2. Watch the webinar on YouTube or on the LabRoots Website (https://www.labroots.com/virtual-event/immuno-oncology-2020/agenda)
3. Click Here to get your PACE credits (Expiration date 06/03/2022): https://www.labroots.com/credit/race-credits/4170/third-party
LabRoots on Social:
Facebook: https://www.facebook.com/LabRootsInc
Twitter: https://twitter.com/LabRoots
LinkedIn: https://www.linkedin.com/company/labroots
Instagram: https://www.instagram.com/labrootsinc
Pinterest: https://www.pinterest.com/labroots/
SnapChat: labroots_inc
Видео Single cell multiomic analysis of T-cell exhaustion канала Labroots
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